Value of electronbeam computed tomography for the noninvasive detection of high-grade coronary-artery stenoses and occlusions, New England Journal of Medicine, vol.339, pp.1964-1971, 1998. ,
Application of stereology to coronary microcirculation, Basic research in cardiology, vol.76, pp.411-415, 1981. ,
Active shape modelstheir training and application, Computer vision and image understanding, vol.61, pp.38-59, 1995. ,
Anatomy of the pig heart: comparisons with normal human cardiac structure, Journal of anatomy, vol.193, pp.105-119, 1998. ,
Global Constructive Optimization of Vascular Systems ,
Model-based vasculature extraction from optical fluorescence cryomicrotome images, IEEE transactions on medical imaging, vol.32, pp.56-72, 2013. ,
Random walks for image segmentation, IEEE transactions on pattern analysis and machine intelligence, vol.28, pp.1768-1783, 2006. ,
Hybrid image-based and synthetic geometric models for patient-specific simulation of coronary blood flow from the large arteries to the myocardium, World Conference of Biomechanics, 2018. ,
Large-scale 3-D geometric reconstruction of the porcine coronary arterial vasculature based on detailed anatomical data, Annals of biomedical engineering, vol.33, pp.1517-1535, 2005. ,
Diameter asymmetry of porcine coronary arterial trees: structural and functional implications, American Journal of PhysiologyHeart and Circulatory Physiology, vol.294, pp.714-723, 2008. ,
Optimal branching structure of the vascular tree, The Bulletin of mathematical biophysics, vol.34, pp.431-438, 1972. ,
Staged growth of optimized arterial model trees, Annals of biomedical engineering, vol.28, pp.495-511, 2000. ,
Scaling laws of vascular trees: of form and function, In: American Journal of PhysiologyHeart and Circulatory Physiology, vol.290, issue.2, pp.894-903, 2006. ,
Morphometry of pig coronary arterial trees, American Journal of Physiology-Heart and Circulatory Physiology, vol.265, pp.350-365, 1993. ,
Simulated annealing approach to vascular structure with application to the coronary arteries, Open Science, vol.3, p.150431, 2016. ,
Analysis of the optimality principles responsible for vascular network architectonics, 1999. ,
A computer reconstruction of the entire coronary arterial tree based on detailed morphometric data, Annals of biomedical engineering, vol.33, pp.1015-1026, 2005. ,
The physiological principle of minimum work I. The vascular system and the cost of blood volume, In: Proceedings of the National Academy of Sciences, vol.12, issue.3, pp.207-214, 1926. ,
Computeroptimization of vascular trees, Biomedical Engineering, vol.40, pp.482-491, 1993. ,
Optimized arterial trees supplying hollow organs, Medical engineering & physics, vol.28, issue.5, pp.416-429, 2006. ,
Image analysis and mathematical morphology, v.1. English revised version, 1982. ,
Generation of an anatomically based geometric coronary model, Annals of biomedical engineering, vol.28, pp.14-25, 2000. ,
Generation of an anatomically based three-dimensional model of the conducting airways, Annals of biomedical engineering, vol.28, pp.793-802, 2000. ,
An optimization-based algorithm for the construction of cardiac Purkinje network models, IEEE Transactions on Biomedical Engineering, 2018. ,
Branching patterns in the porcine coronary arterial tree, Circulation research, vol.71, pp.1200-1212, 1992. ,
3D Imaging of vascular networks for biophysical modeling of perfusion distribution within the heart, Journal of biomechanics, vol.46, pp.229-239, 2013. ,
On the design of the coronary arterial tree: a generalization of Murray's law, Physics in medicine and biology, vol.44, p.2929, 1999. ,